1. Physics 1B03summer-Lecture 9 Wave Motion Qualitative properties of wave motion Mathematical description of waves in 1-D Sinusoidal waves

2. Physics 1B03summer-Lecture 9 A wave is a moving pattern. For example, a wave on a stretched string: The wave speed v is the speed of the pattern. No particles move at this wave speed – it is the speed of the wave. However, the wave does carry energy and momentum. v Δx = v Δt time t t +Δt

3. Physics 1B03summer-Lecture 9 The wave moves this way The particles move up and down If the particle motion is perpendicular to the direction the wave travels, the wave is called a “transverse wave”. Transverse waves Examples: Waves on a string; waves on water; light & other electromagnetic waves; some sound waves in solids (shear waves)

4. Physics 1B03summer-Lecture 9 The wave moves long distances parallel to the particle motions. Longitudinal waves Example: sound waves in fluids (air, water) Even in longitudinal waves, the particle velocities are quite different from the wave velocity. The speed of the wave can be orders of magnitude larger than the particle speeds. The particles back and forth.

5. Physics 1B03summer-Lecture 9 Quiz wave motion A B C Which particle is moving at the highest speed?

6. Physics 1B03summer-Lecture 9 For these waves, the wave speed is determined entirely by the medium, and is the same for all sizes & shapes of waves. eg. stretched string: (A familar example of a dispersive wave is an ordinary water wave in deep water. We will discuss only non-dispersive waves.) Non-dispersive waves: the wave always keeps the same shape as it moves.

7. Physics 1B03summer-Lecture 9 Principle of Superposition When two waves meet, the displacements add: So, waves can pass through each other: v v (for waves in a “linear medium”)

8. Physics 1B03summer-Lecture 9 Quiz: “equal and opposite” waves v v Sketch the particle velocities at the instant the string is completely straight. v v

9. Physics 1B03summer-Lecture 9 Reflections Waves (partially) reflect from any boundary in the medium: 1) “Soft” boundary: Reflection is upright light string, or free end

10. Physics 1B03summer-Lecture 9 Reflection is inverted Reflections 2) “Hard” boundary: heavy rope, or fixed end.

11. Physics 1B03summer-Lecture 9 The math: Suppose the shape of the wave at t = 0 is given by some function y = f(x). y y = f (x) v at time t : y = f (x - vt) y vt at time t = 0 : Note: y = y(x,t), a function of two variables; f is a function of one variable

12. Physics 1B03summer-Lecture 9 Non-dispersive waves: y (x,t) = f (x ± vt) + sign: wave travels towards –x  sign: wave travels towards +x f is any (smooth) function of one variable. eg. f(x) = A sin (kx)

13. Physics 1B03summer-Lecture 9 Sine Waves f(x) = y(x,0) = A sin(kx) For sinusoidal waves, the shape is a sine function, eg., Then y (x,t) = f(x – vt) = A sin[k(x – vt)] A -A y x ( A and k are constants)

14. Physics 1B03summer-Lecture 9 Quiz v y x A) y=  f(x  vt) B) y=  f(x+vt) C) y=  f(  x  vt) D) y=  f(  x+vt) E)something else A wave y=f(x  vt) travels along the x axis. It reflects from a fixed end at the origin. The reflected wave is described by: